Apparatus for preparing paving material.



H. J. RUPLI.

APPARATUS FOR PREPAAING PAVING MATERIAL,

APPLICATION FILE-D PEB. 23, 1909.

Patented A111225, 1911.

1o SHEETS-SHEET 1.

v aumento/r, .We/"ZM-.Zz/Z. y l (Nici/neg# H. J. RUFLI.

APPARATUS PoR PRPPABING PAVING MATERIAL.

APPLICATION PLED P EB. 23, 1909.

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H. J. RUFLI.

APPARATUS POR PREPARING PAVING MATERIAL.

APPLICATION FILED ZEEB. 23, 1909.

, v H, J. RUFLI. APPARATUS FORPRBPARING PAVING MATERIAL.

` APPLICATION FILED FEB. 23, 1909. 990,782. Patented Apr. 25, 1911.

10 SHEETS-SHEET 4.

@gli me/aoco H. J. 11111111. APPARATUS FOR PRBPARING PAVING MATERIAL.

APPLICATION FILED FEB23, 1909.

Patented A111125', 1911.

10 SHEETS-SHEET 5.

Y K H. J'. RUPLI. APPARATUS FOR PRBPARING PAVING MATERIAL.

APPLIGATION PILED'PEB. 23, 190s. c

Patented M1125, 1911.

10 SHBETSnSHBET 6.

/j/ y Jungla. 7/ /3 H. J. RUPLI. APPARATUS POR PREPARING PAVING MATERIAL.

, A H. gr.` RUPLI. A PlhJA'IUS FOR PRBPARING PAVING MATERIAL.

` APPLIGATION FILED FEB. 2av 1909. 990,782.

y H. J. RUPLI. APPARATUSTOR PREPARING PAVING MATERIAL.

APPLIOATIQN FILED 2123.123, 1o9. Patented-Aprglgll;

-H J. RUPLI. APPARATUS P011 PREPABING PAVING MATERIAL.

ArPLIouIoN FILED 1113.23, 1909. v

v Patented Apr. 25, 191.1.'

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4 view 'of so much thereof as embodies the spread upon the surface of the street.

' livering paving material of the character in apparatus 'shall fpropelled.

which are maden part hereof, and on which chine or apparatus embodying my said invention, Fig. 2 aside elevation of 011e side the drying` cylinder being removed@- and narran sra'rns PATENT, ortica.

HERMAN J. RUFLI, OF INDIANAPOLIS, INDIANA, vASSGrN0R T0 THE -AMERICAN PAVING AND MANUFACTURING COMPANY OF INDIANAPOLIS, or rNnIANAroLIs,

INDIANA, A CORPORATIN 0F INDIANA.

.APPARATUS FOR' PREPARING 'PAVING MATERIAL,

Patented Apr. 25, 1911.V

Application filed February 23, 1909. :Serial No. l179,580.

To all whom it may concern:

Be it known that l. HERMAN J. RUFLI, a citizen of the United States, residingat Indianapolis` in the county of Marion and State of Indiana, have invented certain new and useful Improvements in Apparatus for Preparing Paving Material, of which the following is a specilication.

.In the` operation et' preparing -that sort of street paving material which consists mainly of sand and gravel and a bituminous binder, it is necessary that 'the sand and gravel shall be heated, the bituminous material separately melted, andthe two then brought together and mixed in proper proportions, and afterward delivered to be It is obviously of advantage that these several operations shall be carried on at one and the same time, and that a single apparatus, capable of being conveniently moved from place to place', shall be provided for the purpose. I

The principal objects ofV my present in vention are to produce a machine or apparatus by means of which the several op erations of drying, melting, mixing and de.

question may. be adequately and continuously performed, and which machine or also l be portable and self? A machine embodying my said invention will be first fully described and the novel features thereof then pointed out in the claims. l

` Referring to the accompanying drawings,

similar reference characters indicate similar parts, Fig. 1 1s a topv or plan view of a mathereof; Fig. 3 a side elevation of the other side; Fig. 4 aprear end elevation; Fig. 5 a front end elevation; 'Fig'. G a detail plan greater part ot the operating mechanism sonic parts broken away, for purposes of clearer illustration; Fig. 7 a horizontal sectional view as seen when looking down wardly in thedirection indicated by the arrows from the l,position indicated by the line .in the direction indicated 4indicated by the arrows from the broken end of the drying cylinder, as seen from the 7 7 in Fig. 13; F ig., 8 a detail longitudinal yvertical sectional View as seen when `looking by the arrows from the broken line 8 8 in Fig. 13; Fig. 9 an end elevation of the delivery end'of the mixer as seen when looking in the direction line 9 9 alongside Fig. 8;,F ig. 10 an end elevation of the receiving end of the mixer and immediately adjacent parts as seen `whenflooking in the direction indicated by the-arrows from the broken line 1 0 10 in Fig. 8; Fig. 11 a detail sectional perspective View showing more clearly how the bottoms of the measuring hoppers are hinged and operate; Fig. 12 a detail Alongitudinal vertical sectional view as seen when looking in the direction indicated by the arrows from' the broken lines 12 12 in Figs. 7 `and 13; Fig. 12a a detail view as seen from broken line a a in Fig. 13; Fig. 13 a transverse vertical se'ctional view as seen when looking in the direct-ion indicated by the arrows from the dotted lines 13 13 in Figs. 2, 8 and 12; Fig. 14: a detail transverse vertical sectional view similar to a port-ionv ot Fig. 13, but on an enlarged scale, the bottom of the measuring hopper being however shown in its lower or opened position instead of in its closed position as in said Fig. 13; Fig. 15 a fdetail transverse. vertical sectional view showing the means of supporting and revolving-the drying cylinder, and also showing some ofthestructural detailsl of said cylinder, as shown` when looking in the direction -indicated by the arrows by the dotted lines 15 15 in Fig. 2; Fig. 15EL a detail 90 elevationV on an enlarged scale of'the means for holding and adjusting the wings in the drying cylinder; Fig. 16 a, detail vertical sectional view through the driving and Supporting mechanism for the drying cylinder as seen when looking .in the direction indicated by the arrows from the broken line 16 16 in Fig. 15;.I4`ig. 17 a small plan view oi the interior ot the drying cylinder' as it would appear if it were cut open and laid out fiat, thus illustrating the positions of the lifting and conveying wings or lights sec'uredtherein; Fig. .148 a longitudinal vertical section view at the front or receiving position indicated by the broken lines 18 18 .Y

.in Figs. 1 and 19, showing the relation of the receiving hopper and exhaust fan thereto; 19a transverse vertical.sectional yiew as seen when looking in the direction indicated by the arrows from thebroken Iline 19 19 in Figs. 2 and 18; Fig. 20 a` detail vertical sectional view throughfthesteering gear as seen when looking in the direction indicated `by arrows from the broken line 2O 20 in Fig. 6; Fig. 21 alongitudnal ver-v l tical sectional view through the heating furnace as seen when looking in 'the direction indicated by the arrows from the dotted line 21 21 in Fig. 22; Fig. 22 a transverse vertical sectional view through the furnace as seen when lookingin thedirection indicated bythe broken line 22 22 in Figs. 2 and 2l;

Fig. '23 a llongitudinal vertical sectional view through the melting furnace as seen when lookin in the direction indicated by the varrows rom the broken line -23 23 inv Fig. `22; Fig. 24a view` similar toFig. 22 but illustrating.v an alternative construction wherein the heating and -meltingis all accomplished from a` single combustion `chamber; Fig. a detail sectional view illustrat- .ing the liningl. of thetop of the furnace or combustion c amber and the means of securing-the same in place, and Fig. 26 a detail sectional viewl illustrating the lining of the sides and endsthere'o'f and the means of securing the same in place.

In my' improved machine amain frame 21 is mounted at or near its rear end by means of suitable arms 22 upon a rear axle 23carriedby suitable wheels24; and, at the -front end, by means of a ifth wheel 25 and bolster 26 upon an axle 27 carried by suitable l Wheels 28. Upon thisframeistan engine 3l of any suitable character which drives a main or engine-shaft 32. f Upon this shaft is sprocket wheel 33 having a clutch member 34withwhi'cl1 a sliding clutch member 35 is Vadapted to engage, the latter' being Y' splined upon the shaft, anjd shiftable in any convenient way, as by shiftinglever 36. From sprocket 4Wheel 33 runs a 'sprocket chain 37 which, through sprocket wheel 38,

Y drives shaft 39. On the end of the shaft 39 i' of shaft 46 is abevel pinion 51which en-1 gages with two bevel gear Wheels 52 and 53 runningloosely on the shaft 54. -Each of thesebevel gear wheels has a' clutch face or member and two other clutchmembers 55 and 56 are -adapted to' engage therewith, re-

` .spectively. Said clutchv members are operated, as. bythe shifting levers 55 and 56', so that sha-ft 54 may be vdriven in either diu l reetion;,or, when both the clutchesare dis engaged, said shaft will remain atfrest. The

shaft 54 is the shaft to the mixer, by which the material, after it has been suitably imperforate.

treated, is mixed and reduced to thel desired` condition vprevious to inal delivery for use upon lthe street. This mixer and conveyer will be described in detail hereinafter. Also on shaft 32, is a' sprocket wheel 61, having clutch memberv 62, and a second clutch memb er .63 is splined onto the shaft andadapted .to be operated by shifting lever 63'.. Froln sprocket wheel 61 a sprocket chain '64 runs to a sprocket rwheel '65 on end of shaft 66,

and this shaft66 has upon its other end a' spur pinion 67 which engages with spur pin- -ion 68`mounted on countershaft 69, which pinion engages with spur rim 70 on the roflights also serve to convey the material longitudinally of the cylinder, and Afinally deliver it through its discharge end. As best shown in Fig. 15, these flights are of asomewhat peculiar construction, and are adjustable,.and are so attached that the adjustment can be effected from the cxteriorof the cylinder., -fAs will be observed the cylinder walls are of considerable thickness and embody non-conducting material. At the point where each= of the conveyer flights is attached, a cup 76 is. provided, and within thiscup the Hight-'attaching bolt 77 is `placed, so that the end of the bolt, as well as its nut 78, arebelow the exterior surface of' the cylinder. When it isdesired to shift theposition ofthe flights, all that is necessary. lx) do, is to loosen the nut78 slightly, then turn the bolt 77 carrying flight 75 to the desired position, and thenre-tighten nut 78. Suitable indicating marks may be made uponfthe outer end of the bolt-,as shown in Fig. 15, so that the adjustment canlbe effected Without entering the interior of the cylinder. The mark crossing the end of the bolt 77 being parallel with the body of the wing or Hight attached to its inner end, and the indicating marks on the adjacent`sn1- face extending throughout 90 (from hori- -vzontal to perpendicular), it is easily possible to adjust these wings or flightsaccurately, from the exterior of the cylinder, by means of the bolts upon which they are mounted. The rotary drying cylinder 71 is open-ended, and for the' greater portion of its length. is Foil a'short distance near its discharge end, however, the shell of said y secr/e2 i 3 lated material, so as` to form a screen. Buy

thisnieansthe material as it is discharged 1s separated into two grades. The finer por- 'tion will pass out through .the perforations of the' screen-like portion 71', whi le the eoarser material will pass over said screens like portion and be discharged from the eX- treme end. As .elsewhere described, there are two receiving hoppers 'for this material, one of which is positioned below the screen portion of the cylinder, and the other ust at lts end, so that the `material is received separately therein. I

There is also upon the main engine shaft 32 a bevel gear wheel 81, which has a clutch member 82 forming part thereof or connected thereto, and another clutch member 83 is splined to the shaft and adapted to engage therewith, being operated by an ordinary operating lever 83. The bevel gear wheel 81 engages with a corresponding bevel gear Wheel 85011 a shaft 86, and said shaft carries a sprocket wheel 87, from which (see Fig. 3) a sprocket chain 88 runs to a sprocket wheel 89 on shaft 90. From a second sprocket wheel 91 a sprocket chain 92 runs to a sprocket wheel 93 on a shaft 94. Said shaft 94 carriesa spur pinion 95 which I neshes with a spur gear wheel 96 on shaft 97, which is the upper elevator shaft. An

4elevator 98 runs on a suitable wheel on this shaft and over another suitable wheel in the elevator boot carried by shaft 99. The elevator boot 100 is carried below frame 21 and extends nearly to the surface of the ground, and is adapted to receive theruntreated material as it comes to the machine. It has a hopper-like mouth 101 into which the material is thrown, and within said hopper, above that portion into which the elevator 98 extends, is a coarse screen 102, onto which the material is lirst thrown, and which will separate therefrom any stones too large to properly become a. part of the paving mixture.v The screen being set at something of an inclination, such stones will roll oli' and fall back Yon to the ground. This inclination is indicated by the position of the screen bars or screen-supporting frame-ends 103, as shown inFigs. 2 and 3. A portion of this screen is broken away to show the interior of the hopper in Fig. 1. The shaft. 90 also carries a pulley 111 from which a belt 112 runs to a pulley 113 on fan shaft 114. As shown especially in Figs'. 1, 3s 18 and 19, the fan casing 116 within which the fan 115 con` tained is locatedto one side of the drying cylinder7 closely adjacent to its front or re'- ceiving end; and the eye in saidfan casing communicates by means Of a short pipe 117 with a casing 118 which surrounds said.

front or receiving end of the drying cylinder. As the rear or discharging end of said drying cylinder 71 communicates with the combustionuehamber ,of the furnace, the effect is, when thema'chine is in operation, that the fan will draw the products of combustion longitudinally through said drying cylinder,

thus giving the necessary heat therein for the force of the incoming material, but

which will swing outwardly by gravity, and close,l when'no material is passing, and thus prevent the ingress of air through the hopper. By this means .the draft from the furnace through the drying cylinder to the fan is insured. Access to the casing 118 and the front end of the cylinder is provided for by means of a door 124 on the opposite side of said casing from the fan housing.

The rear 0r discharging end of the rotary drying cylinder 71, as well as its frontend, extends into an inclosing casing; This casing 131 (see especially Figs. 1., 2, 3, 8,12, 13 and 21) communicates with the combustion chamber of the furnace by means of a Short pipe 132 through which the products of comgrades of dried material into the weighing hoppers below. The bodies 135 and 136 of these weighing hoppers are pivotally mounted on rock shafts 137 and 138, but the bottoms 139 and 140 are keyed to said rockshafts, as is best shown in Figs. 14 andV 11. Both of these hoppers being alike, a ,description of one will sullice for both; and, therefore, I will describe in detail that one which is shown in Fig. 14. In said figure the ne material comes through the screen portion 71 of drying cylinder 71 and falls through discharge nozzle 133 into weighing drum 135, and rests upon the bottom 139-the latter being at the time in closed position, as indicated by dotted lines in Fig. 14, and by full lines in Fig. 13. The weigher hopper is held in the position indicated by dotted lines unt-il completely loaded by weight 141 on arm 143, which arm is rigidly secured to said weigher hopper. On `the opposite side 'of weigher hopper 135 1s a pivoted catch 145 mounted on pivot 147 in housing 149 rigidly attached to wegher hopper 135.

The catch 145 is provided with an arm 151 extending at substantially right angles therewith, vwhich is adapted, as the weigher /hopper descends, to come -in contact with a 4suitable projection 153 (in the construction.

shown this projection is' a flange. of oneof the frame-beams), and thus disengage said catch vfrom the-bottom 139, and 'allow the latter to descend to the position shown by full lines in Fig. 14, and thus discharge the contents of said weigher hopper into the mixer. vThe movement of catch 145 and of weigher hopper 135 is limited by a second arm 155 which will come in Contact with the side of said conveyer hopper. This catch apparatus is protected from dirt by a housing 157. Therock shaft 137- being keyed to the bottom 139 is moved therewith; and

this, as will be presently described, is the means for manipulatin the valves governing the {iow of the me ted bituminous material. V U A IIhe bituminous materlal after ybelng `melted (as will be presently described) flows from the melting tank through pipes 161 and 162 to the measuring receptacles 163 and 164; and thence, by way of pipes 165l and 166 to the mixer. These pipes (see especially Figs. 12a-and -dotted lines' in 13) preferably start from near the upper side of the meltingtank, pass thence-down'inside the outer'wall, and thence to the'` outside. At an intermediate point, within the inclosure, I place valves 291 and 292, the valve stems 291'- and 2 92 extending to the outside. 'By this arrangement I am enabled to shut off the flow of melted bituminous material at a point where' the residuum left in the pipeswill not chill and clog them, as a considerable heat is maintained in the space wherein said valves are situated. As different' qualities and conditions of sand, gravel or such like material require different quan-v tities of lmelted bituminous material to form a proper mixture, I. have provided means for adjusting` the size of the measuring receptacles 163 and 164. This I have done, in the construction shown, by introducing (through stuffing boxes in the upper ends of,

said lmeasuring'receptacles)v displacers 167y and 168, and Ihave made said displaers adjustable'vertically by means of screws 169 andv170 engaging therewith. y When asmall amountof bituminous -material is required,

thel appropriate displacer is moved down-v wardly within the measuring receptable, ,as

is shown by the position of displacer 167 in Fig. 12; while, when a greater amount is required, the displacer is moved upwardly, as illustrated by the positionof displacer 168 in Fig. 12. -v The discharge pipes 165 and 166- lead, respectively, to the points -in the mixer just below the two weighing hopprs 135 and 136, so that t-he discharge of melted,

bituminous material may take place at the vided an air vent system consistin stand pipe 187 (the upper vend of which eX-' .same points where said weighing hoppers discharge.

In order that the discharge of the two mit-- 'terials to bemixed may be simultaneous. I.

have provided a means whereby'the descent ofthe weighing-hopper bottoms will actuate valves controlling the ingress and egress pipes to the measuring receptacles 163 and 164'. As before, these two devices being substantially counterparts of each other, a de# scription of one will answer for the description of both: The measuring receptacle 163 having been filled' with the melted bitumi-A nous material, through its ingress pipe 161, the valve161-whereof is at the time open,

'and it being ready to ldischarge throu h pipe 165,' the valve 165 .whereofl is at t e time closed, the weigher hopper 135 receives material from the drying cylinder 71 until the weight 141 is overcome, when said weigher hopper descends from the position shown by the dotted lines in Fig. 14 to the as bottom 139 descends valve 165 will be l opened'. From a second arm 179 on valve stem 177, a connecting rod 181 leads to an -arm 183 on valve stem- 185 of valve'161, the arrangement being such that as hopper bot-- tom 139 descends and valve 165 opens, valve 161 will be closed, thus preventing any further flow of melted bituminous ma- -terial into the measuring receptacle 163 un- AV til' the measured (uantltyalready therein has been discharge and the apparatus res et for a further operation. It islnecessary vto the eiicie'ntoperation of the measuring receptacles that air shall flow into and out of them, as the melted bituminous material passes 'out or in, and I have therefore proofa tends above thevsupply of material in the melting tank) having branch'pipes 188 and 1891 leading to and entering the measuring receptacles at their upper ends. As already brieiy stated', the several classes `of material are brought together' within the lreceiving end-of the mixer, the

pointed out) are arranged to be driven by the shaft 54. This mixer consists of an open trough-,like receptacle comprising, in its preferred form, an inner wall 191; and, over the most of its surface, an Aouter wall 192. At its receiving end it has a head 193, while the other 'or dlscharging end is open.

The-shaft 54 rests in bearings in head 193 l opf'erating portions of which (as heretofore open or discharging; end. VUpon this shaft" and in .i suitable bcariiigv194secu1'ed at the at the receiving end, for aldistance substanend ,ofthe mixer'another section 198 of ,I mixing blades may be revolved iii either cliscrew" conveyor is placed. As before stated,

by a manipulation of the driving gear, the

shaft carrying the coiieyer sections and 'recti'om or permit-ted to remain atrest, at

. will.VK Consequently, any desired character oi". mixing may be had by a suitable manipu- 'lation of this apparatus. H the material is not being sufficient-ly mixed when the appaiatusis running steadily at the regular speed, it can be reversed and the material Y retarded and given additional mixiiiff' L17 all as will be readily understood. ln order to `iiizrintain the heat of the material while the same is being mixed, the exhaust pipe` 199 leading from' the engine connects with the space` between the walls 191 and 192, and

Isaid vspace is thus utilized both as a heatingA chamber and as a muliiei' for the exhaust.

Figs. 21 to 26 inclusive illustratethe turnace'construction. ln Figs. 21, 22 and 23,

' two separate combustionY chambers 201 and 20221113 indicated. The chamber 201 is 'dcsigned to supply the principal 'amount of heat which is supplied to the rotary drying cylinder, while the heat from, combustion chamber 202 is vnimarilv for the )url I pose ot melting the bituminous material,

although the heat therefrom also passes by way of a recess 203 (see Fig. 23) to the pipe 132, and thence into the rotary drying cylinder 71, together with the products ot coinbustion from combustion chamber 201; As

Vshown most plainly in Fig. 23 the melting r,tank is divided into two compartments 204.

and 205 by a peri'orate partition-206. The lumps of bituminous material are introduced through inlet opening 207 t0 compartment 204, and the material cannot pass to coin- 'partnient 205 until it is melted and thus 'capable ot passing through the 4perforations in partition 206. The pipes 161 and 162 leadnfroin' a compartment 205 to the v measuring receptacles heretofore described,

bolts 211, after vvhich a plastering of tireproof cement 212 is applied.V The sid-e and end Walls 213 .of combustion chambers 201 and 202 are likewise protected by a thinner layer of asbestos sheets 214 (see Fig. 26), and insideof` these are placed tire brick 215, which are held towall 213 by bolts 216.

The heads. of lsaid bolts are protected by being placed in recesses in the adjacent surfaces of the bricks, which recesses are afterward filled with suitable plastic fire-proof material 217.

In Fig. 24'1 have shown an alternative construction7 in which there is a single combustion chamber, while the melting i'eceptacle extends over its top. 1When this construction is employed, the` lumps ofbituininoiis material are introduced, through opening 221, to the portion of the melting chamber which is directly over the coinbustion chamber, and the melted bituminous material Hows over wall 222 to a chamber similar to compartment 204 of the first described construction. This construction` illustrated in Fig. 24 is preferable where suflicient heat can be obtained thereby, as

. it is of course more economica-l to maintain a fire in one combustion chamber than in tivo. In case of very heavy and rapid Work, however, it will probably be necessary to have the twocoinbustion chambers, as illus trated in the other figures.

The main or engine shaft 32 extends to both sides of the engine 31; andupon that portion on the opposite side of the'engine 'from that bearing the mechanism which has alreaydy been described I haye placed a. 'fly wheel 231; and also, upon its extreme end, a bevel pinion 232.. There is Aintroduced between the flywheel and the pinion a fric tion' clutch 233,'ivhich .is operated by the vordinary shifting lever 234. The pinion 233 engages with a bevel gear Wheel 235 on a count-ershat 236. Said countershaft'has a spur pinion 23T which engages with a spur gear wheel 238 on a shaftl 239 extend ing transversely of tra-me 21. Said shaft- 239 carries sprocket Wheels 241, from which run sprocket chains .242 to sprocket Wheels 243 secured to hubs of ground driving Wheels 24, as 'is shown in Fiets.' 2,3 and 13. This ina-chine is therefore serif-propelled, it' only being necessary, when it isdesired to move it frm place to place, for the operative to throw1 the friction clutch 233 into engage ment by suitable manipulation of the shiftinglever 234. The steering apparatus iS best illust-rated in Figs. 6 and 20, although its position is indicated in Figs. 1, 2 and 3. As is best iio shown in Fig. 20, the. front Wheels 28 are, w

as previously stated, carried by a bolster 26, connected by king bolt ,26' to fifth Wheel bolster 26 has a rearwardly extending arm 251, which has upon itsrear end .(see Fig. 6) a segment- 252 to Which a cable 253 is connected. This cable runs over sheaves 254 and 25d-toV a winding drum 256 carried by vertical shaft 257. Said shaft also carries a spur gear 258 which meshes-with a spur pinion 259 on the hand-wheel shaft260, and

-upon the upper. end of said'lastV named shaft is the handwheel 261 by means of which the steering gear may be manipulated,

. as will be 'read-ily understood.

The operation of this' apparatus may be vrecapitulated as follows: The machine, be-

ing'properly positioned in reference to the.

work to be done, a tire`istirst madel in the combustion chamber -or chambers, andl a supply of bituminous material placed in the melting compartment. A supply ,of the material -(such as sand or gravel) which is tary-drying cylinder 7l. The product-s o'f to -be mixed therewith is also provided at a point convenient to the front endv of the machine, When the bituminous material has been introducedinto the melting cham- 'ber, the other material is thrown into the, hopper v101, and is carried byelevator 98A to hopper 121, whence it passes into the ro- 1 reaches the discharge end of the cylinder,

'the finer` material will fallA through the f screensection thereof into the weigher hopvper beneath, while thecoarser material will pass over the screen portion and be discharged from the open end ofthe cylinder into the other ,weigher hopper.

Weigher hopper receives the predeterminedA As each load, it will automatically discharge, as here- `.inbefore described, and, at the same time,

will by .means of the connection provided close the valve in the pipe lleading to the,

melted bituminous-'material-measuringA receptacle, and open the-valve in the pipe'leading therefrom, thus enabling the predetermined charge of melted 'bituminous material'to mix w-ith the predetermined. quantity of other-material at the point where said materials enter the mixer.' Said materials are thereupon'operated upon by the mixer l mixed,- it `is. alsov desirable that' the sub-- stratum .should beof .the coarser material, i "while'the finer material is'em 655 in the manner' already described; and, when -said'mixed material emerges'from the mixer,

it is in condition to form `the surface of the street. While two classes of material are treated by the said mixing apparatus, they.

are, to a considerable extent, treated sepa.-

rately, .because`the charges enter the mixer separately. The operatives -A 'abled to select the material are thereby enso far as is necessary, and use. the same either as the substratum or top coating of the street, as the case may be. While to make a good street it is necessary that the materials be Well stated, this is a matter easily within the controlof 4the operatives, as' the material, while all mixed to some extent, will emerge from Athe mixer ina sutlicient-ly. separatedl condition to enable its proper manipulation and use. It is o-f course necessary that the coarser material, although formingthe substratum of the pavement, should contain a cert-ain amount of finer material in order municating with the .inclosing casing at thedelivery end of said rotary drying cylinder,

"and Iasuction fan communicating with tho chamber of the casing at the receiving end of said cylinder whereby the products of combustion fromsaid furnace are drawn through said cylinder and discharged from the delivery nozzle of said fan, a receivmg at each end of said cylinder, a furnace comhopper delivering to said rotary drying cylinder, and an-automatically opening and closing door arranged 1n lthe passage be- 'tween the hopper and-drying cylinder.

2. The combination, in an apparatus for preparing paving material, with a drying cylinder, of an automatically-acting weighing hopper 1for receiving the material from sald cylinder, said hopper being provided with a counterbalancing weight whereby the portions of material may be adjustably predetermined, lsaid hopper being also pro- A -vided with a movable mottom and a latch- -ing mechanismtherefor adapted to be opverated whenthe.

predetermined weight of material is reached.v

f 3. The combination, in an apparatus for preparing -paving'materiah with a drying cylinder, of an automatically-acting weighlng hopper for receiving the material from lto said hopper, a latching deviceifor said bottom secured to the. side of said hopper. having an arm' extending outwardly therefrom, and a strikewith whichsaid armwill come in contact and "thus disengage said latch and release the bottom as the hopper descends upon reaching the predetermined weight, said hopper being also provided with a movable bottom and a latching mechanism therefor-adapted to be operated when the predetermined weight of material is reached. l 4.y The combination, in an apparatus for preparing paving material, with means for drying and heating.the body material of the after being dried and' heated, means forr melting the bituminous binder material, measuring devices for the melted bituminous material, discharging devices for both materials arranged adjacent to each other, and connections between said discharging devices whereby they are caused to act synchronously, thereby discharging both materials simultaneously.

(i. rlthe combination, in ,an apparatus for preparing paving material, with the meltingturuace for the bituminous material, of measuring receptacles connected with the melting chamber, valves for controlling'the .inflow and outllow of the melted material to said measuring receptacles, and means for adjusting the size of the containing chamber of such measuring receptacles whereby 'the quantity of 'melted bituminous material may be adjustably predetermined relatively to the body material with which it is to be mixed.

7. The combination, in an apparatus for preparing paving material, with the melting furnace for the bituminous material, of measuring receptacles connected with the melting' chamber, valves for controlling the inflow and outflow of the melting material to said measuring receptacles, displacers within said measuring receptacles, and means for adjusting said displacers and thus varying the size of the containing chambers of said measuring receptacles.

till) 8. The combination, in an apparat-us for preparing paving material, `of a drying and heating apparatus `for the body material, automatically-acting measuring devices for receiving and delivering said body material after being dried and heated, means for melting the bituminous binder material, measuring devices for the melted bituminous binder material, measuring devices for both materials arranged adjacent to each other, valves for controlling the discharge of the melted bituminous material, and connections between the discharge closures of the measuring devices for the body material and said valves, whereby the operation ot' said closures will automatically operate said valves.

9. The combination, in an apparatus for preparing paving material, of a melting furnace for bituminous binding material, a measuring receptacle into which such melted material willtlov'v, a pipe leading from the melting receptacle to the measuring receptacle, a chamber adapted to be heated between the melting receptacle and the meas-A uringreceptacle, a valve in the pipe within theheated chamber, and a valve stem extending rom said valve through the wall of the 'chamber whereby the valve within the chamber' can be operated from `outside the chamber.

10. The combination, in an apparatus for preparing paving material, of a drying and .heating apparatus for the body material, a

pivotally mounted receiving hopper adapted to receive, said material from said heating and drying apparatus, a discharging closure for said receiving hopper, a' rock shaft to which said discharging closure is rigidly connected, an arm on said rock shaft,A a measuring receptacle for meltedl bituminous material, a pipe leading into said measuring receptacle, a pipe leading from said receptacle, a valve in cach of said pipes, and connections between the arm on the rock shaft of the hopper closure and arms on the stems. of said valves, whereby the valve of the inlet pipe is closed and the valve of the discharge plpe'opened synchronously with the opening of the hopper closure.

11. The combination, in an apparatus for preparing paving material. ot a drying and heating element for the body material, a melting element for the bituminous material, measuring receptacles into which the material from said elements respectively pass and arrange to discharge at a common point, a mixer arranged to receive said discharge and mivV the materials and convey them to the point ot final discharge l'or use,

and connect-ions between the measuring element for body material and binding material whereby the dumping operation ot one will cause a corresponding operation of the other.

12. The combinatiom in an' apparatus for preparing paving material. ot' a drying and heating element for the body material, a melting element for the bituminous material,.nieasuring receptacles into which the material from said elements respectively pass'and arranged to discharge at a common pointa mixerarranged to receive said discharge and mix'th'e materials and conveyv them to the pointot final discharge for use, said mixer having a double wall and a pipe leading from the exhaust ot the engine to the space between said double wall, and intermediate connections-between the measuring elements Vfor body material and binding material whereby the dumping operation ot' one will cause a corresponding operation of the other.

13. The combination, in an apparatus for preparing paving material', vof a drying andv I heating element'for the* body material, a

melting element for the bituminous material, measuring receptacles into which the material from said elements respectively pass and 'arrangedto discharge at a common point, af mixer arranged to receive said ldischarge,

and mix'the materials and convey them t0 the pointof final discharge for use, said' 10, mixer shaft being provided with a double drive gearing whereby it may be caused to revolve in either direction or permitted to I. .'remainidle at will while the remainder of' thev apparatus is in operation.

14. "The combination, in an apparatus for preparing paving material, of a heating and dryingv cylinder 'for the paving' body materialja heating and melting fu'rnacshaving communicationwith theiinterior of said dry-v `A ing cylinder through which the products of 30 preparing paving material, of aframe, carry ing wheels upon which said frame is mounted, steering *z ipparatusv for said wheels, an engine I .mounted on said frame, a rotary drying cylinder also :mounted on said frame, power y lA connections between said engine and said cylinder, stationary casings inclosing the two lends* ofv said cylinder. respectively, a heating fand lmelting furnace also mounted on said frame, a ypassageconnecting the combustion 40 chamber of said furnace andthe casing inclosing'the-rear end of said-cylinder, a suction .fan also mounted on said frame, a connection between said suction' fan -and the casinginclosing the front endof said cylingineand said fan,

116. Thecoiiibination, int-an apparatus for 'preparing paving inaterialofa frame, carrying. wheels .f'upon which sa l frame is mounted, .an engine .mountedv` o" a rotary drying j cylinder also mounted on said frame, power.' connections .between `said en# f.

'A gineand said. cylinder, stationary casingsj inclosin the two ends '.of'saidcylinder re .55`v spective y, ,a 'heating an1d .melting vfurnace also mounted on sa'i f necting the .comlt'iustmiiv chamber f of said furf nace yand the'casing inclo'sing the rear' end'of said' cyli nder,"a suction fan alsomounted on said-frame, a connection betweensaid'suci tion AfanV and the casinginclosing the', front .fend of said cylinder, power -connectionsbetween 'said engine-and said fam-the casing inclosing the front end ofthe cylinderbeing providediwith areceiving hopper, and an vinclosing fan,v the casing inclosing frame, a passage" conelevator positioned adjacent to said receiving'hopper-and adapted to elevate lmaterial anddi'scharge the same tliereinto.

17. The combination, in an apparatus for preparing paving material, of a frame, carrying. 4 wheels upon which' said frame is mounted, an engine mounted on said frame,l a -rotary drying cylinder also mounted on said frame', power` connections between said engine and said cylinder, stationary casings inclosing the two ends of said cylinder respective'ly, a heating and melting furnace also mounted on said frame, a `passage connecting the combustion chamber of said furnace and the casing inelosing the rear end of said cylinder, a suction fan also mounted on said frame, a connection 'between said suctionfan and the casing inclosing the front end ofsaid cylinder, power connections be- -tween said engine and said fan, the casing inclosing the front end of the cylinder being 'provided with a receiving hopper, an elevator positioned adjacent to said 'receiving -hopper and adapted to elevate material anddischargethe same thereinto, measuring receptacles arranged .adjacent to the rear end of the. heating and drying cylinder, and

vother measuring receptacles connected to the nielting'chamber of the furnace, said several measuring receptacles being provided with a discharge means 'leading to a coinmon point. Y

18. The combination, `in an apparatus for preparing paving material, of a frame, carrying wheels upon whichv said frame is mounted, an engine mounted on said frame,

'a rotary drying cylinder also mounted on .said.frame, power connections between said engine and said cylinder, stationary casings the twofends of said cylinder res ective y, a heating and melting furnace a so mounted on said frame, a passage connecting the combustion .chamber of 'said furnace vand the casing inclosing the rear end'of said cylinder, .a suction fan -also mounted von said frame, a connection between 'said suction fan and the casing inclosingfthe front end oisaidf cylinder, ower connections between .said .engine an said l the front end of the. cylinder being. provided with 1a receivving ho per, an elevator positioned adjacent jto' 'sai .receiving hopper and adapted to elevateifmaterialand discharge the same thereinto, measuring' receptacles arranged adjacent to Athe rear end of the heating and .drying cylinder, other measuring receptacles lconnected to the melting chamber of 'the furnace, said several' measuring receptacles being provided; with adiscliarg'e means leadingJtoa common point, and a mixer-located at said common point and adaptedto receive and -mix the material from said measuring receptacles. l

19. -In an apparatus for preparing paving material, the combination of a drier and heater provided with means at its discharge end for separately delivering two grades of dried and heated body material, two automatically operating dumping devices arranged in position to receive the two grades of body material, a mixer arranged in position to receive the discharges from bot-h ot said dumping devices, means for melting a supply of bitumen, two measuring devices into which the bitumenmelter discharges,

and connections between-each body material i dumper and one of the bitumen measurers whereby correlative actuation of a body ma' .this thirteenth day of February, A. -D. one

thousand nine hundred and nine.

HERMAN J. RUFLI.

Witnesses CHESTER BRADFORD, THOMAS W. MCMEANS. 

